Cell deposition system

ABSTRACT

A system for depositing cells on an analysis plate, the cells being contained in a cell suspension including a fixing agent and the cells, included, for receiving the suspension, a chamber ( 5 ) which is positioned above the analysis plate and whose base is open and extends opposite a cell depositing zone of the plate and a material for absorbing the fixing agent placed around the chamber and the depositing zone of the plate. The chamber is mounted so as to be able to be moved between a first position in abutment against the analysis plate in order to allow the cells to be deposited on the depositing zone of the plate via decantation and a second position remote from this analysis plate in order to place the chamber in a fluid relationship with the absorption material in order to allow this material to absorb the fixing agent.

The present invention relates to a system for depositing cells on ananalysis plate.

In order to screen or diagnose lesions, cell samples are taken and areplaced in suspension so that they can be analysed.

Generally, these samples can be taken using specific brushes, needles orany other appropriate means and are then introduced into a bottlecontaining a cell fixing agent so that the cells which have been removedare fixed by the fixing agent and form a suspension therewith.

The cells must then be deposited on an analysis plate.

Various deposition methods and systems for this type of application arealready known from the prior art.

In this manner, for example, centrifuging means and filtering means havebeen used to obtain this cell deposit on the plate.

However, such means are relatively complex, bulky, costly and are notvery easy to use.

The deposit of the cells can also be obtained by means of a simpledecantation operation.

In this instance, the cell suspension comprising the cell fixing agentand the cells is poured into a receiving chamber which is positionedabove the analysis plate and whose base is open and extends opposite acell depositing zone of the analysis plate.

The cells are deposited progressively on the plate, then the fixingagent is withdrawn from the chamber.

However, it will be appreciated that this operation which involvesremoving the fixing agent without moving the cells is very long andcomplex.

In order to overcome these problems, document FR-A-2 792 333 proposes asystem for depositing cells on an analysis plate, the cells beingcontained in a cell suspension which comprises a cell fixing agent andthe cells, the suspension being poured into a receiving chamber which ispositioned above the analysis plate and whose base is open and extendsopposite a cell depositing zone of the analysis plate. According to thissystem, the base of the chamber is in fluid communication with amaterial for absorbing the fixing agent in order to progressively absorbit and to allow a homogeneous deposit of the cells on the celldepositing zone of the analysis plate.

When used, however, such a system also had a given number ofdisadvantages, in particular with respect to the time required for theabsorption of the fixing agent and therefore the deposit of the cells onthe analysis plate.

The object of the invention is therefore to overcome these problems.

To this end, the invention relates to a system for depositing cells onan analysis plate, the cells being contained in a cell suspensioncomprising a fixing agent and the cells, comprising, for receiving thesuspension, a chamber which is positioned above the analysis plate andwhose base is open and extends opposite a cell depositing zone of theplate and a material for absorbing the fixing agent placed around thechamber and the depositing zone of the plate, characterised in that thechamber is mounted so as to be able to be moved between a first positionin abutment against the analysis plate in order to allow the cells to bedeposited on the depositing zone of the plate by means of decantationand a second position remote from this analysis plate in order to placethe chamber in a fluid relationship with the absorption material inorder to allow this material to absorb the fixing agent.

According to specific embodiments, the system comprises one or more ofthe following features:

-   -   the base of the chamber is provided with sealing means;    -   the chamber is connected to means for moving the chamber between        its two positions at the end of a predetermined period of time;    -   the predetermined period of time is approximately 30 minutes;        and    -   the absorption material is in the form of a sheet of absorbent        paper which is placed around the depositing zone of the plate        and the chamber.

The invention will be better understood from a reading of the followingdescription, given purely by way of example and with reference to theappended drawings, in which:

FIG. 1 is a schematic section of a depositing system according to theinvention, in which the chamber is in its first position; and

-   -   FIG. 2 is a similar view, in which the chamber is in its second        position.

These Figures illustrate a system for depositing cells on an analysisplate.

The analysis plate is generally designated 1 and is formed by anyappropriate plate which is already known from the prior art.

This plate is received in a corresponding recess 2 of a component 3which forms a base and which will be described in greater detail below.

A cell suspension which is generally designated 4 is poured into areceiving chamber 5 which is placed above the analysis plate and whosebase is open and extends opposite a cell depositing zone of the analysisplate.

This receiving chamber 5 is, for example, placed in a support component6 which will be described in greater detail below and which extendsopposite the component which forms a base 3.

The depositing system also comprises a material for absorbing the cellfixing agent.

This absorption material is generally designated 7 in these Figures andis, for example, in the form a sheet of absorbent paper which has thethickness of the liquid deposit (approximately 0.5 mm) and which isprovided with a hole 8 which is capable of extending opposite the celldepositing zone of the analysis plate.

The absorption material extends around the cell depositing zone of theplate and the receiving chamber 5 and is therefore positioned betweenthe components which form a base 3 and support components 6 around thischamber 5 for receiving the suspension.

These components which form a base and support can be fixed and lockedto each other, for example, using fixing means and locking means whichallow the sheet of absorption material to be held in position by meansof clamping therebetween.

It should also be noted that the lower edge of the chamber 5 can beprovided, for example, with a sealing joint 9 such as, for example, anO-ring and the chamber can be moved relative to this plate, asillustrated in FIGS. 1 and 2 using means for controlling the movementthereof, generally designated 10.

These control means may have any appropriate structure.

These means allow this chamber to be moved between the positionillustrated in FIG. 1, in which the chamber and more particularly thebase thereof and the sealing joint are in abutment against the analysisplate, thus preventing the absorption material from absorbing the cellfixing agent of the suspension contained in the chamber.

The chamber is held in this position for a predetermined period of time,for example, of approximately 30 minutes in order to allow a homogeneousdeposit by cells being decanted on the analysis plate, as illustrated.

At the end of this predetermined period of time, the control means bringabout a movement of the chamber from the position illustrated in FIG. 1to the position illustrated in FIG. 2, in which this chamber is remotefrom the analysis plate, thus placing the fixing agent of the cellsuspension and the absorption material in a fluid relationship.

Tests have shown that after a period of time of 30 minutes, the cellsare already in the correct position and it is possible to initiate theabsorption of the fixing agent in order to save time during thedepositing operation of the cells on the analysis plate.

Of course, various embodiments of this system may be envisaged, inparticular with respect to the movement means and the sealing means ofthe chamber.

It will be appreciated that this structure allows the cells to bedeposited in a rapid and homogeneous manner on the analysis plate, inparticular in the form of a single layer, which facilitates theirsubsequent analysis, and that this structure is particularly well suitedto the analysis of cytological suspensions.

1. System for depositing cells on an analysis plate (1), the cells beingcontained in a cell suspension (4) comprising a fixing agent and thecells, comprising, for receiving the suspension, a chamber (5) which ispositioned above the analysis plate (1) and whose base is open andextends opposite a cell depositing zone of the plate and a material (7)for absorbing the fixing agent placed around the chamber and thedepositing zone of the plate, characterised in that the chamber (5) ismounted so as to be able to be moved between a first position (FIG. 1)in abutment against the analysis plate (1) in order to allow the cellsto be deposited on the depositing zone of the plate (1) by means ofdecantation and a second position (FIG. 2) remote from this analysisplate (1) in order to place the chamber (5) in a fluid relationship withthe absorption material (7) in order to allow this material to absorbthe fixing agent.
 2. System according to claim 1, characterised in thatthe base of the chamber (5) is provided with sealing means (9). 3.System according to claim 1, characterised in that the chamber (5) isconnected to means (10) for moving the chamber between its two positionsat the end of a predetermined period of time.
 4. System according toclaim 3, characterised in that the predetermined period of time isapproximately 30 minutes.
 5. System according to claim 1, characterisedin that the absorption material (7) is in the form of a sheet ofabsorbent paper which is placed around the depositing zone of the plateand the chamber (5).
 6. System according to claim 2 characterised inthat the chamber (5) is connected to means (10) for moving the chamberbetween its two positions at the end of a predetermined period of time.7. System according to claim 6, characterised in that the predeterminedperiod of time is approximately 30 minutes.
 8. System according to claim2, characterised in that the absorption material (7) is in the form of asheet of absorbent paper which is placed around the depositing zone ofthe plate and the chamber (5).
 9. System according to claim 3,characterised in that the absorption material (7) is in the form of asheet of absorbent paper which is placed around the depositing zone ofthe plate and the chamber (5).
 10. System according to claim 4,characterised in that the absorption material (7) is in the form of asheet of absorbent paper which is placed around the depositing zone ofthe plate and the chamber (5).